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Structure of the external aldimine form of PglE, an aminotransferase required for N,N'-diacetylbacillosamine biosynthesis.PglE的外部醛亚胺形式的结构,PglE是N,N'-二乙酰芽孢杆菌胺生物合成所需的一种转氨酶。
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空肠弯曲菌PglF的结构与生化研究揭示了短链脱氢酶/还原酶超家族成员的新机制。

Structural and Biochemical Investigation of PglF from Campylobacter jejuni Reveals a New Mechanism for a Member of the Short Chain Dehydrogenase/Reductase Superfamily.

作者信息

Riegert Alexander S, Thoden James B, Schoenhofen Ian C, Watson David C, Young N Martin, Tipton Peter A, Holden Hazel M

机构信息

Department of Biochemistry, University of Wisconsin , Madison, Wisconsin 53706, United States.

National Research Council Canada, Human Health Therapeutics , Ottawa, Ontario K1A 0R6, Canada.

出版信息

Biochemistry. 2017 Nov 14;56(45):6030-6040. doi: 10.1021/acs.biochem.7b00910. Epub 2017 Nov 3.

DOI:10.1021/acs.biochem.7b00910
PMID:29053280
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6211297/
Abstract

Within recent years it has become apparent that protein glycosylation is not limited to eukaryotes. Indeed, in Campylobacter jejuni, a Gram-negative bacterium, more than 60 of its proteins are known to be glycosylated. One of the sugars found in such glycosylated proteins is 2,4-diacetamido-2,4,6-trideoxy-α-d-glucopyranose, hereafter referred to as QuiNAc4NAc. The pathway for its biosynthesis, initiating with UDP-GlcNAc, requires three enzymes referred to as PglF, PglE, and PlgD. The focus of this investigation is on PglF, an NAD-dependent sugar 4,6-dehydratase known to belong to the short chain dehydrogenase/reductase (SDR) superfamily. Specifically, PglF catalyzes the first step in the pathway, namely, the dehydration of UDP-GlcNAc to UDP-2-acetamido-2,6-dideoxy-α-d-xylo-hexos-4-ulose. Most members of the SDR superfamily contain a characteristic signature sequence of YXXXK where the conserved tyrosine functions as a catalytic acid or a base. Strikingly, in PglF, this residue is a methionine. Here we describe a detailed structural and functional investigation of PglF from C. jejuni. For this investigation five X-ray structures were determined to resolutions of 2.0 Å or better. In addition, kinetic analyses of the wild-type and site-directed variants were performed. On the basis of the data reported herein, a new catalytic mechanism for a SDR superfamily member is proposed that does not require the typically conserved tyrosine residue.

摘要

近年来,蛋白质糖基化并不局限于真核生物这一点已变得显而易见。事实上,在革兰氏阴性菌空肠弯曲杆菌中,已知有60多种蛋白质被糖基化。在这些糖基化蛋白质中发现的一种糖是2,4 - 二乙酰氨基 - 2,4,6 - 三脱氧 - α - D - 吡喃葡萄糖,以下简称为QuiNAc4NAc。其生物合成途径以UDP - GlcNAc开始,需要三种酶,即PglF、PglE和PlgD。本研究的重点是PglF,一种已知属于短链脱氢酶/还原酶(SDR)超家族的NAD依赖性糖4,6 - 脱水酶。具体而言,PglF催化该途径的第一步,即将UDP - GlcNAc脱水为UDP - 2 - 乙酰氨基 - 2,6 - 二脱氧 - α - D - 木糖 - 己糖 - 4 - 酮糖。SDR超家族的大多数成员包含一个特征性的YXXXK序列,其中保守的酪氨酸作为催化酸或碱起作用。引人注目的是,在PglF中,这个残基是甲硫氨酸。在这里,我们描述了对空肠弯曲杆菌PglF的详细结构和功能研究。为此研究确定了五个分辨率为2.0 Å或更高的X射线结构。此外,还对野生型和定点变体进行了动力学分析。基于本文报道的数据,提出了一种SDR超家族成员的新催化机制,该机制不需要典型的保守酪氨酸残基。